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"ramify" Definitions
  1. to spread out and form branches

33 Sentences With "ramify"

How to use ramify in a sentence? Find typical usage patterns (collocations)/phrases/context for "ramify" and check conjugation/comparative form for "ramify". Mastering all the usages of "ramify" from sentence examples published by news publications.

It's a totally unregulated endeavor whose benefits ramify throughout the local marketplaces.
America's geographical and hydrological blessings ramify not only inward but also outward.
Still, as plots ramify and the cast grows, the individual vignettes are themselves sculpted, and anchoring.
Like any tactic, it is not an end in itself, but rather an intervention that will ramify into the future.
The policy changes of the last seven years have changed our politics in ways that will continue to ramify, no matter who wins.
The ganglion cells vary much in size, and the dendrites of the smaller ones as a rule arborize in the inner plexiform layer as soon as they enter it; while those of the larger cells ramify close to the inner nuclear layer.
The tonsillar branch of the facial artery ascends between the pterygoideus internus and styloglossus muscles, and then along the side of the pharynx, perforating the constrictor pharyngis superior, to ramify in the substance of the palatine tonsil and root of the tongue.
The horizontal cells lie in the outer part of the inner nuclear layer and possess somewhat flattened cell bodies. Their dendrites divide into numerous branches in the outer plexiform layer, while their axons run horizontally for some distance and finally ramify in the same layer.
Much of the synchronous bursting activity associated with interictal epileptiform activity appears to be generated in CA3. Its excitatory collateral connectivity seems to be mostly responsible for this. CA3 uniquely, has pyramidal cell axon collaterals that ramify extensively with local regions and make excitatory contacts with them.
The heart and the auricle are very much developed, contained in a pericardium, and situated at the base of the branchiae. The cerebral ganglion is broad and flattened ; it sends out numerous nervous filaments which ramify over the whole body. The penis of the male is considerable and situated upon the same side. Kiener (1840).
The rhinophores are of the same color as the branchial leaves, but more translucent with white dots on the apex. The long, large, lateral appendages are totally opaque white except at the apex, where they ramify and become more cream in tone. There are four pairs of lateral appendages. They are smooth with ramifications in the apex only.
According to Frankfurt, the members of the first group are devoid of will and therefore are no longer persons. The members of the second group freely desire not to take the drug, but their will is overcome by the addiction. Finally, the members of the third group willingly take the drug they are addicted to. Frankfurt's theory can ramify to any number of levels.
The University of Dallas' student-ran media is diverse. The student newspaper is The University News, published weekly on Wednesdays both in-print and online. The yearbook, first published in 1957, is The Crusader. Ramify, the official journal of the Braniff Graduate School of Liberal Arts, has been published since 2009 to showcase "serious but jargon-free intellectual treatments" on subjects of the liberal arts.
It passes lateralward, immediately below the oculomotor nerve, which separates it from the posterior cerebral artery, winds around the cerebral peduncle, close to the trochlear nerve, and, arriving at the upper surface of the cerebellum, divides into branches which ramify in the pia mater and anastomose with those of the anterior and posterior inferior cerebellar arteries. Several branches are given to the pineal body, the anterior medullary velum, and the tela chorioidea of the third ventricle.
Similar to plants, insects are able to control the opening and closing of these spiracles, but instead of relying on turgor pressure, they rely on muscle contractions. These contractions result in an insect's abdomen being pumped in and out. The spiracles are connected to tubes called tracheae, which branch repeatedly and ramify into the insect's body. These branches terminate in specialised tracheole cells which provides a thin, moist surface for efficient gas exchange, directly with cells.
Corculum cardissa and some other members of the family Cardiidae live in symbiosis with dinoflagellates in the genus Symbiodinium. These are found in the mantle, gills and the liver. It was originally thought that the photosynthetic algae were in the haemocoel, the fluid between the cells. It has since been found however that, in response to the presence of Symbiodinium, a tertiary series of tubules develop from the walls of the digestive system and ramify through the tissues.
The shorter of these two is called the ganglionic system, and the vessels belonging to it supply the thalami and corpora striata; the longer is the cortical system, and its vessels ramify in the pia mater and supply the cortex and subjacent brain substance. Furthermore, the cortical branches are divisible into two classes: long and short. The long or medullary arteries pass through the grey substance and penetrate the subjacent white substance to the depth of 3–4 cm. The short vessels are confined to the cortex.
" The latter echoes the ambivalent prompting of Banksy's noted "Kissing Coppers" wall painting, and is indicative of FAILE's consistent prioritization of ambivalence and open- endedness over more explicitly prescriptiveness. There are both socially and institution-critical strands in FAILE's work and its public or alternative- space staging and execution. FAILE's work is overarchingly characterized by an open approach that allows the interpretation and meaning of their work to ramify once it enters the public sphere. Of their outdoor work, FAILE argues that "it gives a person the sense that it is there just for them.
About 48–72 hours after inoculation, depending on the environment, the biotrophic phase ends and the necrotrophic phase begins. It is marked by the development of many thin hyphae, known as secondary or necrotrophic hyphae, which develop off of the primary hyphae and the infection hypha. Unlike the much larger primary hyphae, these secondary hyphae move freely through the host in all directions, penetrating cell walls and membranes alike. In order to more easily ramify throughout the host tissue, the hyphae release enzymes which break down host-specific proteins.
The oral disc of Actinodendron arboreum has stripes that radiate from the mouth, and can reach a diameter of 10 to 20 centimetres. The column is elongated when expanded; it has a fairly small pedal disc and is thicker at the distal (upper) end. The tentacles are colourless, around 10 to 20 centimetres long and ramify fractally, being subdivided into branches and branchlets which makes the whole head of tentacles resemble a broccoli. The tentacles grow in whorls as the animal enlarges; the first whorl is six tentacles followed by further whorls of six, twelve and twenty-four tentacles.
The stylomastoid artery enters the stylomastoid foramen and supplies the tympanic cavity, the tympanic antrum and mastoid cells, and the semicircular canals. It is a branch of the posterior auricular artery, and thus part of the external carotid arterial system. In the young subject a branch from this vessel forms, with the anterior tympanic artery from the internal maxillary, a vascular circle, which surrounds the tympanic membrane, and from which delicate vessels ramify on that membrane. It anastomoses with the superficial petrosal branch of the middle meningeal artery by a twig which enters the hiatus canalis facialis.
The lienal artery is remarkable for its large size in proportion to the size of the organ, and also for its tortuous course. It divides into six or more branches, which enter the hilum of the spleen and ramify throughout its substance, receiving sheaths from an involution of the external fibrous tissue. Similar sheaths also invest the nerves and veins. Each branch runs in the transverse axis of the organ, from within outward, diminishing in size during its transit, and giving off in its passage smaller branches, some of which pass to the anterior, others to the posterior part.
The peripheral end of the cell terminates at the gustatory pore in a fine hair filament, the gustatory hair. The central process passes toward the deep extremity of the bud, and there ends in single or bifurcated varicosities. The nerve fibrils after losing their medullary sheaths enter the taste bud, and end in fine extremities between the gustatory cells; other nerve fibrils ramify between the supporting cells and terminate in fine extremities; these, however, are believed to be nerves of ordinary sensation and not gustatory. Salt, sweet, sour and umami tastes causes depolarization of the taste cells, although different mechanisms are applied.
The winter here, especially in the elevated region of the Paramera and the waste lands of Ávila, is long and severe, but the climate is not unhealthy. The principal mountain chains are the Guadarrama, separating this province from Madrid; the Paramera and Sierra de Ávila, west of the Guadarrama; and the vast wall of the Sierra de Gredos along the southern frontier, where its outstanding peaks rise to 6000 or even 8000 ft. Pico Almanzor is the highest point. The ridges which ramify from the Paramera are covered with valuable forests of beeches, oaks and firs, presenting a striking contrast to the bare peaks of the Sierra de Gredos.
Within the leaf these vascular systems branch (ramify) to form veins which supply as much of the leaf as possible, ensuring that cells carrying out photosynthesis are close to the transportation system. Typically leaves are broad, flat and thin (dorsiventrally flattened), thereby maximising the surface area directly exposed to light and enabling the light to penetrate the tissues and reach the chloroplasts, thus promoting photosynthesis. They are arranged on the plant so as to expose their surfaces to light as efficiently as possible without shading each other, but there are many exceptions and complications. For instance, plants adapted to windy conditions may have pendent leaves, such as in many willows and eucalypts.
The chorion undergoes rapid proliferation and forms numerous processes, the chorionic villi, which invade and destroy the uterine decidua, while simultaneously absorbing nutritive materials from it for the growth of the embryo. The chorionic villi are at first small and non-vascular, and consist of the trophoblast only, but they increase in size and ramify, whereas the mesoderm, carrying branches of the umbilical vessels, grows into them, and they are vascularized. Blood is carried to the villi by the paired umbilical arteries, which branch into chorionic arteries and enter the chorionic villi as cotyledon arteries. After circulating through the capillaries of the villi, the blood is returned to the embryo by the umbilical vein.
In the optic tectum, the cholinergic inputs from Ipc ramify to give rise to terminals that extend across an entire column, from top to bottom. Imc, in contrast, gives rise to GABAergic projections to Ipc and optic tectum that spread very broadly in the lateral dimensions, encompassing most of the retinotopic map. Thus, the tectum-Ipc-Imc circuit causes tectal activity to produce recurrent feedback that involves tightly focused excitation of a small column of neighboring tectal neurons, together with global inhibition of distant tectal neurons. The optic tectum is involved in many responses including swimming in fish, flight in birds, tongue-strikes toward prey in frogs, and fang-strikes in snakes.
For example, ramification is a phenomenon of codimension 1 (in the geometry of complex manifolds, reflecting as for Riemann surfaces that ramify at single points that it happens in real codimension two). A classical result, Zariski-Nagata purity of Masayoshi Nagata and Oscar Zariski, called also purity of the branch locus, proves that on a non-singular algebraic variety a branch locus, namely the set of points at which a morphism ramifies, must be made up purely of codimension 1 subvarieties (a Weil divisor). There have been numerous extensions of this result into theorems of commutative algebra and scheme theory, establishing purity of the branch locus in the sense of description of the restrictions on the possible "open subsets of failure" to be an étale morphism.
The anterior proper fasciculus consists of longitudinal intersegmental fibres which arise from cells in the grey matter, more especially from those of the medial group of the anterior column, and, after a longer or shorter course, re-enter the gray substance; and fibres which cross in the anterior white commissure from the grey matter of the opposite side. The lateral proper fasciculus is made up of the remainder of the lateral column, and is continuous in front with the anterior proper fasciculus. It consists chiefly of intersegmental fibres which arise from cells in the grey matter, and, after a longer or shorter course, re-enter the grey matter and ramify in it. Some of its fibers are, also continued upward into the brain in the medial longitudinal fasciculus.
This is an example of a branched covering of Riemann surfaces. This intuition also serves to define ramification in algebraic number theory. Given a (necessarily finite) extension of number fields F / E, a prime ideal p of OE generates the ideal pOF of OF. This ideal may or may not be a prime ideal, but, according to the Lasker–Noether theorem (see above), always is given by :pOF = q1e1 q2e2 ... qmem with uniquely determined prime ideals qi of OF and numbers (called ramification indices) ei. Whenever one ramification index is bigger than one, the prime p is said to ramify in F. The connection between this definition and the geometric situation is delivered by the map of spectra of rings Spec OF → Spec OE. In fact, unramified morphisms of schemes in algebraic geometry are a direct generalization of unramified extensions of number fields.
The retinal nerve fiber layer (RNFL) or nerve fiber layer, stratum opticum, is formed by the expansion of the fibers of the optic nerve; it is thickest near the optic disc, gradually diminishing toward the ora serrata. As the nerve fibers pass through the lamina cribrosa sclerae they lose their medullary sheaths and are continued onward through the choroid and retina as simple axis-cylinders. When they reach the internal surface of the retina they radiate from their point of entrance over this surface grouped in bundles, and in many places arranged in plexuses. Most of the fibers are centripetal, and are the direct continuations of the axis-cylinder processes of the cells of the ganglionic layer, but a few of them are centrifugal and ramify in the inner plexiform and inner nuclear layers, where they end in enlarged extremities.
Mug with mocha decoration, England, c. 1800, earthenware Mocha decorated pottery is a type of dipped ware (slip-decorated, lathe-turned, utilitarian earthenware), mocha or mochaware, in addition to colored slip bands on white and buff-colored bodies, is adorned with dendritic (tree-like or branching) markings resembling the natural geological markings on moss agate, known as "mocha stone" in Great Britain in the late 18th century. The stone was imported from Arabia through the port of Mocha (al Mukha in Yemen) from whence came large supplies of coffee. An unknown potter or turner discovered that by dripping a colored acidic solution into wet alkaline slip on a pot body, the color would instantly ramify into the dendritic random markings that fit into the tradition of imitating geological surfaces prevalent in the potteries of that period.
In the fetus, the internal iliac artery is twice as large as the external iliac, and is the direct continuation of the common iliac. It ascends along the side of the bladder, and runs upward on the back of the anterior wall of the abdomen to the umbilicus, converging toward its fellow of the opposite side. Having passed through the umbilical opening, the two arteries, now termed umbilical, enter the umbilical cord, where they are coiled around the umbilical vein, and ultimately ramify in the placenta. At birth, when the placental circulation ceases, the pelvic portion only of the umbilical artery remains patent gives rise to the superior vesical artery (or arteries) of the adult; the remainder of the vessel is converted into a solid fibrous cord, the medial umbilical ligament (otherwise known as the obliterated hypogastric artery) which extends from the pelvis to the umbilicus.

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